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中间型大豆
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  “中间型大豆”译为未确定词的双语例句
     22 wild (G. soja), 11 semi-wild and 15 cultivated soybean (G.max) samples from different latitudes (25-52°N) in China were used.
     利用人工气候箱,在人工控制的五种昼夜温度下,对中国北纬25—52°的野生大豆(Glycine soja)22份,中间型大豆11份和栽培大豆(G.max)15份进行了昼夜温度反应的研究.
短句来源
     semi-wild soybean (G. gracilis skv.)
     、中间型大豆(G.gracilis skv.)
短句来源
  相似匹配句对
     Soy
     大豆
短句来源
     semi-wild soybean (G. gracilis skv.)
     、中间型大豆(G.gracilis skv.)
短句来源
     Soybean (Glycine max (L.)
     大豆(Glycinemax(L.)
短句来源
     3)intermidiate tpye;
     3.中间型
短句来源
     (3)semidwarf with medium long leaf andmedium dense panicle;
     3型是中间型;
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59 wild and semi vild soybean collections samples from different latitudes (24°-42°N) were divided into four types: normal (W 1), bigger seeded (W 2), plain (P) andhigh altitude (H): (1) all were short-day plants, (2) their reaction to short-day photoperiod was negatively correlated with the latitude they originated,in general, W 1>W 2>C Culfivated'soybean) and W1P, W2P>WlH, W2H, i. e. W1H somewhat liked the northern WlP. Eight wild soybeans (WlP) and eight cultivated soybeans of representative latitudes were...

59 wild and semi vild soybean collections samples from different latitudes (24°-42°N) were divided into four types: normal (W 1), bigger seeded (W 2), plain (P) andhigh altitude (H): (1) all were short-day plants, (2) their reaction to short-day photoperiod was negatively correlated with the latitude they originated,in general, W 1>W 2>C Culfivated'soybean) and W1P, W2P>WlH, W2H, i. e. W1H somewhat liked the northern WlP. Eight wild soybeans (WlP) and eight cultivated soybeans of representative latitudes were used for testing the effect of day/night temperature in growth chamber. We found. (1) under the day/night temperature 30/20℃, 20/20℃, 30/10℃, 20/ 10℃, FD (days from emergence to flowering), FDI (ratio of FD)and MD (days from emergence to maturing) were all negatively correlated with the latitude the materials originated, (2) differenes of the reaction to the day temperature, night temperature, and day/night temperature were all correlated with the latitude the materials originated, i. e. the high-latitude materials, comparing with the low-latitude, were more sensitive to the day high temperature, less sensitive to thelow night tempecature and the bisser day/night temperature difference, (3) according to the day/hight temperature reaction of the wild soybean, 35°-40°N area was a critical region, (4) the wild soybeans were mare sensitive to the thermo-effece, as well as the photo-effece Depending upon theeffeets of wild soybeeom wip mainly divided the photo-thermo ecotyses into seven egions. in chine. According to the similarity and the difference of photoperiod and temperature response between wild and cultivated soybeans, we presented the possibility that the Yellow River Valley (35-40°N) was the mian area the cultivated soybean was originated.

本文对中国24—52°N的野生大豆、中间型大豆(包括正常(W_1)、大粒(W_2)、平原(P),高海拔(H)四种类型)59份和地方栽培品种(C)14份进行了光周期分析。全部材料表现为短日性,短日性强度与纬度绝大多数呈显著负相关。在相同的纬度条件下,强度一般为:正常型(W_1)>大粒型(W_2)>栽培种(C),而大粒型近似正常型,平原型(W_1P、W_2P)>高海拔类型(W_1H、W_2H)。即高海拔材料的反应与较高纬度的平原材料表现相似。论述了高海拔条件,特别是低温和昼夜温差大对光周期特性形成的重要影响。 对中国25—51°N代表性纬度野生大豆(均为W_1P型),栽培大豆各8份进行了昼夜温度反应分析。首次发现:(1)30°/20℃,20°/20℃,30°/10℃,20°/10℃四种温度下开花日数、花期指数与纬度均呈负相关。(2)不同纬度材料的开花对昼高温、夜低温、大的昼夜温差呈规律性反应。表现高纬度材料对昼高温(30℃)敏感,提早开花显著;对夜低温(10℃)迟钝,延迟开花不显著;特别对昼夜大的温差反应迟钝;而低纬度的相反。25°N的材料,昼高温不但不促进开花,反而延迟。(3)35—40°N地区野生...

本文对中国24—52°N的野生大豆、中间型大豆(包括正常(W_1)、大粒(W_2)、平原(P),高海拔(H)四种类型)59份和地方栽培品种(C)14份进行了光周期分析。全部材料表现为短日性,短日性强度与纬度绝大多数呈显著负相关。在相同的纬度条件下,强度一般为:正常型(W_1)>大粒型(W_2)>栽培种(C),而大粒型近似正常型,平原型(W_1P、W_2P)>高海拔类型(W_1H、W_2H)。即高海拔材料的反应与较高纬度的平原材料表现相似。论述了高海拔条件,特别是低温和昼夜温差大对光周期特性形成的重要影响。 对中国25—51°N代表性纬度野生大豆(均为W_1P型),栽培大豆各8份进行了昼夜温度反应分析。首次发现:(1)30°/20℃,20°/20℃,30°/10℃,20°/10℃四种温度下开花日数、花期指数与纬度均呈负相关。(2)不同纬度材料的开花对昼高温、夜低温、大的昼夜温差呈规律性反应。表现高纬度材料对昼高温(30℃)敏感,提早开花显著;对夜低温(10℃)迟钝,延迟开花不显著;特别对昼夜大的温差反应迟钝;而低纬度的相反。25°N的材料,昼高温不但不促进开花,反而延迟。(3)35—40°N地区野生大豆的温度反应表现出明显的临界性。(4)对温度反应的敏感程度和光周期反应一样,也表现为野生大豆>栽培大豆。 综合光温生态分析,将中国平原地区野生大豆初步分为七个?

22 wild (G. soja), 11 semi-wild and 15 cultivated soybean (G.max) samples from different latitudes (25-52°N) in China were used. The plants were grown in 5 growth chambers under the day/night temperat ure: 35/25℃, 30/20℃, 20/20℃, 20/10℃, 30/10℃ respectively. The photoperiod was 12 hrs. and the light intensity was 13-15 Klux. 4 plants/treatment and every plant was grown in a plastic pot. The experiment lasted for 120 days. Days from emergence to flowering (FD) and to maturity (MD) were calculated. (1) FD increased,...

22 wild (G. soja), 11 semi-wild and 15 cultivated soybean (G.max) samples from different latitudes (25-52°N) in China were used. The plants were grown in 5 growth chambers under the day/night temperat ure: 35/25℃, 30/20℃, 20/20℃, 20/10℃, 30/10℃ respectively. The photoperiod was 12 hrs. and the light intensity was 13-15 Klux. 4 plants/treatment and every plant was grown in a plastic pot. The experiment lasted for 120 days. Days from emergence to flowering (FD) and to maturity (MD) were calculated. (1) FD increased, as temperature increased within the range:20/10℃, 20/20℃, 30/10℃, and 30/20℃, while the temperature raised to 35/25℃, FD of most wild soybean and some semi-wild, cultivated soybean decreased comparing with 30/20℃, (2) Effeet of temperature on development was more obvious on FD than on MD.(3) Under short-day (day length. 12hr.) and lower day/night temperature (20/10℃, 30/10℃, 20/20℃), some higher latitudinal samples were sterile and gave rise abnormal pods. The frequency of sterility and abnormal pods were wild>semi-wild> cultivated soybean. (4)FD of the high-latitudinal materials, comparing with low-latitudinal ones, were more sensitive to day high temperature (30/20℃), less sensitive to night low temperature (20/10℃) and also less sensitive to larger day/night temperature (30/10℃). The FD/MD ratio increased with the decrease of the latitude that the materials originated. (5) The response to temperature of high-altitudinal materials (≥1000M) comparing with low-altitudinal ones(<400M) from same latitude was the same as that of materiaes from plain area (<400 M) of high latitude (6) The sensitivity of the effect to day/night temperature on development of soybean was: wild>semi-wild>cultivated soybean.

利用人工气候箱,在人工控制的五种昼夜温度下,对中国北纬25—52°的野生大豆(Glycine soja)22份,中间型大豆11份和栽培大豆(G.max)15份进行了昼夜温度反应的研究.结果表明:1.三种类型大豆均表现在低于30/20℃的昼夜温度范围内,随着昼夜温度的升高,发育加速;而当昼夜温度升高到35/25℃时,对大部分野生大豆和部分低纬度的中间型,栽培大豆具有延迟作用。2.昼夜温度对不同类型大豆发育的影响主要表现在出苗到开花这一发育阶段,对开花到成熟也有一定的影响,但影响较小。3.以20/20℃为对照,不同纬度的大豆表现随着纬度的升高,对昼高温(30/20℃)反应敏感,促进开花明显;对夜低温反应(20/10℃)迟钝,延迟开花较少;对大的昼夜温差(30/10℃)适应性增强。在所有温度处理下,均表现随着纬度的升高,生育期缩短,生育前期(出苗到开花)与整个生育期的比值降低。4.同纬度不同海拔的材料表现,高海拔的材料对昼夜温度的反应类似较高纬度的平地材料。5.通过温度反应的分析,说明野生大豆具有比较敏感的温度生态反应,随着进化程度的提高,对温度适应性增强。中间型大豆对昼夜温度反应的敏感程度...

利用人工气候箱,在人工控制的五种昼夜温度下,对中国北纬25—52°的野生大豆(Glycine soja)22份,中间型大豆11份和栽培大豆(G.max)15份进行了昼夜温度反应的研究.结果表明:1.三种类型大豆均表现在低于30/20℃的昼夜温度范围内,随着昼夜温度的升高,发育加速;而当昼夜温度升高到35/25℃时,对大部分野生大豆和部分低纬度的中间型,栽培大豆具有延迟作用。2.昼夜温度对不同类型大豆发育的影响主要表现在出苗到开花这一发育阶段,对开花到成熟也有一定的影响,但影响较小。3.以20/20℃为对照,不同纬度的大豆表现随着纬度的升高,对昼高温(30/20℃)反应敏感,促进开花明显;对夜低温反应(20/10℃)迟钝,延迟开花较少;对大的昼夜温差(30/10℃)适应性增强。在所有温度处理下,均表现随着纬度的升高,生育期缩短,生育前期(出苗到开花)与整个生育期的比值降低。4.同纬度不同海拔的材料表现,高海拔的材料对昼夜温度的反应类似较高纬度的平地材料。5.通过温度反应的分析,说明野生大豆具有比较敏感的温度生态反应,随着进化程度的提高,对温度适应性增强。中间型大豆对昼夜温度反应的敏感程度介于野生与栽培大豆之间。本结果为大豆的进化提供了生态学方面的依据。

This paper is concerned on the studies of the chlorophyll-protein complexes on the thylakoid membrane of the wild soybean (Glycine soja sieb. et Zucc.) semi-wild soybean (G. gracilis skv.) and cultivated soybean (G. max. (L.) Merr.). Thylakiod membranes of different types of soybean have been isolated and prepared by centrifugation Five chlorophyll-protein complexes and one free chlorophyll band co-mplexed to SDS (FC) have been obtained from thylakoid membranes of different types of soybeans by SDS-PAGE. According...

This paper is concerned on the studies of the chlorophyll-protein complexes on the thylakoid membrane of the wild soybean (Glycine soja sieb. et Zucc.) semi-wild soybean (G. gracilis skv.) and cultivated soybean (G. max. (L.) Merr.). Thylakiod membranes of different types of soybean have been isolated and prepared by centrifugation Five chlorophyll-protein complexes and one free chlorophyll band co-mplexed to SDS (FC) have been obtained from thylakoid membranes of different types of soybeans by SDS-PAGE. According to the measurement of the mobility of SDS-PAGE, absorption spectra, fluorescence emission spectra, we discovered that one chlorlphyll-protein complex is belong to the PSI (CPI); another is belong to the PS Ⅱ (CPa) and the other three are LHCP. Quantity of the LHCP of different types of soybeans account for total chlorophyll-protein complexes ranged in the order as follows: wild soybean > semi-wild soybean > cultivated soybean. The Chla/b ratios of LHCP ranged in the order as follows : wild soybean

本文对野生型(Glycine Soja Sieb et Zucc.)、中间型大豆(G.gracilis skv.)和栽培大豆(C.max (L.) Merr.)的叶绿素体类囊体膜叶绿素蛋白复合体进行了比较研究。离心制备不同类型大豆叶绿体类囊体膜,用SDS——聚丙烯酰胺凝胶电泳从不同类型大豆叶绿体类囊体膜分离出五条叶绿素——蛋白复合体带和一条游离色素带。根据电泳迁移率、吸收光谱、荧光发射光谱测定,五条叶绿素——蛋白复合体带有一条属于光系统Ⅰ(CPI);一条属于光系统Ⅱ(Cpa);三条属于捕光叶绿素a/b蛋白复合体。不同类型大豆的捕光叶绿素a/b蛋白复合体占全部叶绿素蛋白复合体的相对含量依次是:野生型>中间型>栽培型。捕光叶绿素a/b蛋白复合体带的Ch1 a/b值依次为:野生型低于中间型,中间型低于栽培型。野生型、中间型大豆与栽培大豆相比,具有阴生植物的某些特性。

 
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